Synergistic coupling of surface plasmon resonance with metal-organic frameworks based biomimetic Z-Scheme catalyst for enhanced photoelectrochemical water splitting

“…MOFs are porous organic-inorganic highly ordered supramolecular structures that consist of a high surface area with fascinating physical and chemical properties. 37 A few reports are available on anchoring metal nanoparticles in the pores of MOFs for water-splitting applications, such as gold nanorod-decorated Co-MOFs, 38 gold nanorod-stabilized Co-Fe MOFs, 39 Au@PD-COP-II, 26 RuAu SAA, 40 MoS 2 /Au, 21 AuNPs/CdS/LaBTC MOFs, 41 and Cu-doped@MIL-88B/NF. 24 Usually, water electrolysis using these materials is carried out in acidic electrolytes because basic electrolytes need a large overpotential and show slow reaction kinetics.…”

A Au nanoparticle anchored stannatranone-pillared MOF as a duo-active electrocatalyst for overall water splitting

“…MOFs are porous organic-inorganic highly ordered supramolecular structures that consist of a high surface area with fascinating physical and chemical properties. 37 A few reports are available on anchoring metal nanoparticles in the pores of MOFs for water-splitting applications, such as gold nanorod-decorated Co-MOFs, 38 gold nanorod-stabilized Co-Fe MOFs, 39 Au@PD-COP-II, 26 RuAu SAA, 40 MoS 2 /Au, 21 AuNPs/CdS/LaBTC MOFs, 41 and Cu-doped@MIL-88B/NF. 24 Usually, water electrolysis using these materials is carried out in acidic electrolytes because basic electrolytes need a large overpotential and show slow reaction kinetics.…”

A Au nanoparticle anchored stannatranone-pillared MOF as a duo-active electrocatalyst for overall water splitting

Gold nanoparticles for solar cells applications

Interconversion of sp-hybridized chemical bonds induces piezoelectric enhanced photocatalysis